Adapter for car radios

ABSTRACT

An adapter for electrical connections of a car radio has a plastic part containing integrated electrical plug-in connection arrangement and mechanically fixable to a car component that does not have any electrical connection with the adapter.

The invention relates to an adapter for the electrical connections of a car radio.

On their rear side, car radios have plug-in connectors which are used to set up a connection to a cable harness in the vehicle. There are a wide variety of embodiments and configurations of the plug-in connectors. This results in the problem that not every car radio can be readily connected in each vehicle since the plug-in connectors on the car radio and on the cable harness of the vehicle are designed differently. On one hand, this makes it more difficult for the end user to retrofit a car radio and, on the other hand, requires the car radio manufacturer, during initial installation, to constantly adapt the plug-in connectors to the differently designed plug-in connectors of various vehicle manufacturers or sometimes even to various plug-in connectors of various vehicle models of a single manufacturer. As a result, different variants of the device are required solely on account of the different plug-in connectors. In addition to considerable development and tool costs, this also leads to increased logistical complexity.

As an alternative to adapting the plug-in connectors of the car radio to the special plug-in connector of the vehicle cable harness, use may be made of adapter cables which have the respective compatible mating connectors for the car radio and the cable harness at their ends. In this case, a separate adapter cable is then generally required for each plug-in connection, thus resulting in increased plug-in complexity during installation of the radio and in a confusing installation situation (“cable clutter”) in the case of preinstalled adapter cables.

Therefore, it is an object of the invention to specify an adapter for electrical connections of a car radio, said adapter avoiding the abovementioned disadvantages and facilitating installation.

In the case of an adapter for electrical connections of a car radio, the object is achieved, according to the invention, by virtue of the fact that the adapter is in the form of a plastic part in which electrical plug-in connectors are integrated and which can be mechanically fixed to a vehicle component which does not have an electrical connection to the adapter. The use of the adapter according to the invention makes it possible to use car radios in vehicles having different types of plug-in connector without adapting the plug-in connectors of the device and thus generating different variants of the device. The adapter according to the invention is in the form of a plastic part which can be mechanically fixed to a vehicle component. The plastic part has various electrical plug-in connectors which have both the mating connectors for the vehicle cable harness and those for the car radio plug-in connectors. If the plastic part is then mechanically fixed to the vehicle component, the plug-in connector of the vehicle cable harness can be initially connected to the adapter. The plug-in connector of the car radio can then be electrically connected to the adapter via a cable. There is therefore no need to adapt the plug-in connectors of the car radio to the plug-in connectors of the cable harness. In addition, fixing the adapter to a vehicle component provides a defined installation position which is considerably clearer than when using adapter cables.

The vehicle component is preferably a radio slot, the plastic part being designed to be fitted to the radio slot. If the vehicle thus has two radio slots, the car radio can be installed in one radio slot and the plastic part can be fitted to the rear side of the second radio slot which, for example, serves as a compartment. If the plastic part is of cuboidal design and has an open outer wall, this results in a particularly simple way of adapting the plastic part to the dimensions of a radio slot or of another suitable motor vehicle component and of fitting it to the latter.

The adapter preferably has at least two multipole electrical plug-in connectors having a different contact arrangement and/or contact assignment. In this case, one of the electrical plug-in connectors may have the contact arrangement and/or contact assignment of the plug-in connector of the car radio, while the second plug-in connector has the contact arrangement and/or contact assignment of a corresponding plug-in connector of the vehicle cable harness.

In addition, the adapter may have an antenna socket and an antenna connector which is connected to the antenna socket via a self-supporting connecting line. In this case, the adapter may, in particular, contain means for antenna phantom powering, with the result that a car radio which, per se, is not designed for antenna phantom powering (while such antenna phantom powering is, however, provided in the vehicle) can also be used in the vehicle and the advantages of antenna phantom powering are retained.

The adapter may also contain means for implementing a CAN bus connection. In this case too, a car radio which, per se, does not have a CAN bus connection can be connected to a CAN bus of a vehicle and all associated advantages can be realized. If car radios having a CAN bus connection are thus provided by the manufacturer, use of the adapter according to the invention having means for implementing a CAN bus connection means that a radio without a CAN bus can also be used during retrofitting without having to accept disadvantages in comparison with a mass-produced car radio.

The invention will be described in more detail below with reference to an exemplary embodiment and the drawing, in which:

FIG. 1 shows a first view of an adapter according to the invention;

FIG. 2 shows a second view of an adapter according to the invention; and

FIG. 3 shows the use of the adapter with a dual DIN installation frame.

FIG. 1 shows an adapter 1 according to the invention in which a plurality of plug-in connectors are integrated in a plastic part 2. The adapter 1 contains antenna plug-in connectors 3, 4 and two multipole plug-in connectors 5, 6 for the purpose of connecting corresponding plug-in connectors of a cable harness of a vehicle. In terms of its connection assignment and arrangement, a further plug-in connector 7 corresponds to a device connection block of a car radio and is provided for connection to the car radio using a cable. The further plug-in connectors 8, 9 are provided for connecting the adapter 1 to corresponding antenna plug-in connectors of the car radio. In contrast to the plug-in connectors 3-7 which are directly integrated in the plastic part 2, the plug-in connectors 8, 9 are connected to the corresponding plug-in connectors 3, 4 via self-supporting connecting lines 10, 11.

FIG. 2 shows a rear view of the adapter 1. It is evident from the figure that the plastic part 2 of the adapter 1 is of essentially cuboidal design, one of the outer walls being open. The dimensions of the plastic part 2 are selected in such a manner that the latter can be fitted to an installation slot in a motor vehicle and is reliably fixed there.

The adapter 1 also contains a phantom power arrangement 13 for the phantom powering of an antenna. The phantom power arrangement 13 is clipped into the plastic part 2 and is electrically connected to the antenna connectors 3, 8. The adapter 1 thus provides antenna phantom powering irrespective of the car radio used. A printed circuit board 14 on which there are electronic components for implementing a CAN bus connection is also fitted in the plastic part 2. The rear side of the printed circuit board 14 can be seen in FIG. 2, whereas the components are arranged on the front side which cannot be seen. The printed circuit board 14 is electrically connected to the plug-in connectors 7 and 5, 6.

FIG. 3 shows a dual DIN installation frame 15 of a motor vehicle, in the top part of which a car radio 16 is installed. A further device having the external dimensions of a car radio can be installed in the bottom part of the installation frame 15. In the example, however, the lower radio slot 17 is used merely as a storage compartment, the plastic part 2 of the adapter 1 being fitted to the radio slot 17. A further retaining element 13 of the plastic part 2 is fitted to a corresponding retaining element 18 of the car radio and ensures that the adapter 1 is additionally retained. The antenna plug-in connectors 8, 9 of the adapter 1 are directly fitted to corresponding plug-in connectors of the car radio 16. The plug-in connector 7 can now be easily connected to the identical plug-in connector 19 of the car radio 16 using a cable. The corresponding plug-in connectors of a vehicle cable harness can then be inserted into the plug-in connectors 5, 6 of the adapter 1.

The adapter according to the invention thus results in a clear installation situation, even in the case of different connections of the car radio and of a vehicle cable harness, without directly adapting the connections of the radio to the cable harness of the vehicle. 

1.-7. (canceled)
 8. An adapter for coupling a car radio to plug-in electrical connection in a vehicle comprising: a part; and a plug-in connection arrangement integrated in the part for electrically and selectively coupling a plug-in connection of a car radio to a corresponding plug-in electrical connection in a vehicle, the part being mechanically fixable to a vehicle component which has no electrical connection to the adapter.
 9. The adapter of claim 8, wherein the vehicle component is a radio slot and the part is shaped and dimensioned for mounting to the slot.
 10. The adapter of claims 8, wherein the part is cubically shaped and has an opening in a wall thereof.
 11. The adapter of claim 8, wherein the plug-in connection arrangement comprises at least two multipole electrical plug-in connectors having at least one of a different contact pattern and a different contact assignment.
 12. The adapter of claim 8, further comprising an antenna socket, and an antenna connector coupled to the antenna socket by a self-supporting connecting line.
 13. The adapter of claim 8, further comprising a control area network (CAN) bus connection.
 14. The adapter of claim 12, further comprising an antenna phantom powering unit. 